JP2010508500A - Modular laboratory equipment for liquid analysis and synthesis and methods for liquid analysis and synthesis - Google Patents

Abstract

  The modular laboratory equipment for liquid analysis and synthesis has a liquid tank (50), a central electronic evaluation unit (30), a plurality of functional modules (40), and a plurality of fluid modules (42). The functional modules (40) are arranged in series and mechanically and fluidly connected to each other. At least one fluid module (42) is fluidly connected to the liquid tank (50) and to one of the functional modules (40), and the functional module (40) and the fluid module (42) are connected to the central electronic evaluation unit (30). ) To the electrical connection (52). In the method of liquid analysis and synthesis using the modular laboratory equipment according to the present invention, the central electronic evaluation unit (30) controls the functional module (40) and the fluid module (42) by the analysis and / or synthesis program, An analysis program and / or a synthesis program is executed.

Description

  The present invention relates to modular laboratory equipment for liquid analysis and synthesis and methods for liquid analysis and synthesis.

  Liquid analysis and synthesis is performed in a laboratory and various individual process steps are performed to determine, for example, all relevant physical and chemical properties. Examples of physical properties include turbidity, color, particle size and the like. Examples of chemical properties include components such as metals (especially calcium and magnesium (water hardness), nitrogen and phosphorus (fertilizer residue), chlorine and sodium). For drinking water, a great many different pollutants (especially biological content such as bacteria and industrial toxic substances) are important. The regulations applied here are set by government agencies or international organizations (WHO). Checking for compliance with these regulations not only requires well-equipped laboratories and trained staff, but also requires substantial expenditures in physical and human resources.

  Therefore, there is a need for a compact liquid analysis and synthesis apparatus that can automatically perform a large number of process steps and be flexibly designed to meet individual requirements.

The present invention provides such a laboratory apparatus.
In the present invention, the modular test room equipment includes a liquid tank, a central electronic evaluation unit, multiple functional modules, and multiple fluid modules. The functional modules are arranged in series and mechanically and fluidly connected to each other. At least one fluid module fluidly connects to one of the liquid tank and the functional module and includes an electrical connection that connects the functional module and the fluid module to the central electronic evaluation unit. The modular laboratory apparatus according to the present invention comprises a number of functional modules and fluid modules, which can be arranged and mechanically and fluidly connected to each other according to the desired function, so that this modular laboratory apparatus is Can be flexibly adjusted in a simple and cost-effective manner, and can be expanded if needed in the future. Since many analysis and / or synthesis steps can be performed in parallel on one instrument, process execution time is reduced.

The present invention further provides methods for liquid analysis and synthesis. This method is excellent in terms of reliability, flexibility and low process cost.
In the method of the invention, the central electronic evaluation unit controls the functional modules and the fluid modules by means of an analysis program and / or synthesis program and executes the analysis and / or synthesis program. Since the individual modules are connected to the central electronic evaluation unit by electrical connection, the execution or progress of analysis and synthesis is centrally controlled, the sensor signals of the functional modules are recorded and evaluated, and the results of measurement and analysis and synthesis Can be evaluated and assessed. Since analysis and / or synthesis is performed and advanced automatically, processes that have been performed manually in many individual steps can be automated and standardized. This increases the process reliability on the one hand and lowers the process cost on the other. Continuous monitoring is also possible.

Further features and configurations of the invention will become apparent from the dependent claims and from the description of the preferred exemplary embodiment shown in the following figures.
1 shows a side view of a preferred exemplary embodiment of a modular laboratory apparatus according to the present invention. FIG. FIG. 2 shows an exploded view of the modular laboratory apparatus of FIG. Figure 3 shows the modular subunit of the modular laboratory apparatus shown in Figures 1 and 2;

  The modular test chamber apparatus shown in FIG. 1 includes a housing 10 having an upper housing portion 12 and a lower housing portion 14. The lower housing portion 14 includes a plurality of fluidic connections 16 to the environment, an external connection 18 for a power source 48 (shown in FIG. 3), and an electrical connection 20 to the environment. As shown in FIG. 2, the upper housing portion 12 includes a plurality of operating elements 22 and a communication interface 24. The upper housing part 12 further has a recess 26 formed for the display unit 28. The display unit 28 is part of the central electronic evaluation unit 30 and constitutes the modular subunit 32 of the modular laboratory apparatus.

  Details of another modular subunit 34 housed within the housing are shown in FIG. The modular subunit 34 has a number of functional modules 40 and a number of fluid modules 42. The fluid module 42 and the functional module 40 are connected to each other between the modules by standardized mechanical connections (not shown here). Fluid module 42 and functional module 40 further include standardized electrical and fluid connections 44 for fluidly and electrically connecting these modules and other modules to each other. The fluid module 42 further comprises a pump and / or valve element 46.

  In the exemplary embodiment shown here, the pump and / or valve element 46 is a component of the fluid module 42, but in the present invention they may be provided as separate control modules. In that case, the control module may itself be electrically, mechanically and fluidly connected to the fluid and functional modules by standardized connections.

  The modular subunit 34 shown in FIG. 3 further comprises a power supply 48 and a liquid tank 50. The functional modules 40 are arranged at a plurality of levels. The individual levels of the modular subunit 34 are connected to each other and to the central electronic evaluation unit 30 by means of electrical connections 52. At least some of the fluid modules 42 are fluidly connected to the fluid tank 50. The fluid module 42 further includes a cover 54 on the side opposite to the functional module 40 side. The cover 54 includes a fluid connection 56 that is used to supply or degas the fluid module 42, or to inject sample fluid or reagents or fluids required for analysis or synthesis. The fluid connection 56 connects to one of the fluid connectors 16 to the environment formed in the lower housing portion 14, respectively.

  The functional module 40 may include a sensor for performing a desired measurement. For example, the functional module may comprise sensors for measuring the pH, conductivity, turbidity, concentration of organic and inorganic components. The function module 40 is also used to medium sample liquid from the liquid tank 50 and / or fluid module 42 and another liquid, such as a second liquid for synthesis of a tracer fluid or a third liquid, for example. Can also be mixed. The liquid to be mixed with the sample liquid may be sent from another fluid module 42 directly to the subject functional module 40 or through another functional module 40. The functional module 40 may also include a reservoir for storing the supply liquid required for synthesis or analysis.

  In order to analyze or synthesize a liquid, a liquid to be examined or a liquid that needs to be synthesized is injected into the liquid tank 50. This may be done using one of the fluid connections 16 to the environment formed in the lower housing portion 14. A partial sample may be distributed from the liquid tank 50 to the fluid module 42 by a pump and valve element 46. In this case, the concentration of different components (nitrate, heavy metal, chlorine, etc.) may be determined in parallel for each of these partial samples, for example. However, a defined analysis or synthesis sequence can also be performed in series. Individual fluid modules 42 are fluidly and electrically linked to selected functional modules 40 by standardized connections 44.

To determine the concentration value, the liquids of the individual fluid modules 42 are distributed to the respective functional modules 40. In this case, the desired measurement is performed within the functional module 40. However, the functional module 40 may also be used to mix that liquid with another liquid. In this case, the mixture may be transferred to another functional module 40 for measurement. Other possible functions of the functional module include, for example, segregation, measurement, storage, filtration, separation, and precipitation.
For continuous monitoring, liquid may be injected into the liquid tank 50 at defined time intervals or continuously.

  The central electronic evaluation unit 30 controls the functional module 40 and the fluid module 42 by means of an analysis and / or synthesis program and automatically executes the analysis and / or synthesis program. If the specific properties of the liquid determined by analysis and / or synthesis exceed or do not reach a predetermined value, the central electronic evaluation unit 30 issues a warning or warning message. The individual modules are driven by the central electronic evaluation unit 30 via electrical connections 52 and the sensor signals are sent to the central electronic evaluation unit. The central electronic evaluation unit registers, evaluates and assesses sensor signals and all measurement results and analysis and / or synthesis results. These functional modules 40 with sensors preferably comprise their own electronic unit for measuring signal conditioning. The central electronic evaluation unit 30 preferably drives the pump and valve element 46 manually and automatically according to a defined program, so that any desired path can be programmed and activated through the network formed by the functional and fluid modules.

  The modular test room apparatus according to the present invention is suitable for application as a desktop unit, and can also be used for outdoor measurements when, for example, a battery is used as a power source.

  Since the functional module 40, the fluid module 42 or, if necessary, the control module can be aligned with each other and expanded as required according to the desired requirements, the modular laboratory apparatus according to the present invention is highly flexible. You can also adapt to new demands in a simple and cost-effective way. Since the central electronic evaluation unit centrally registers, evaluates and assesses all measurement results and analysis and synthesis results, a cost-effective and time-saving method can be provided. The results are stored and can be searched and tracked at a later date. Since analysis and / or synthesis is performed and advanced automatically, processes that have been performed manually in many individual steps can be automated and standardized. This increases the process reliability on the one hand and lowers the process cost on the other. Continuous monitoring is also possible.

Claims (26)

A modular laboratory instrument for the analysis and synthesis of liquids,
A liquid tank (50);
A central electronic evaluation unit (30);
A number of functional modules (40);
A number of fluid modules (42);
With
The functional modules (40) are arranged in series and mechanically and fluidly connected to each other,
At least one fluid module (42) is fluidly connected to the liquid tank (50) and to one or more of the functional modules (40), and the functional module (40) and the fluid module (42) are connected to the central electronic evaluation unit ( 30) and / or with electrical connections (52) connected to each other,
Modular laboratory equipment.   The modular laboratory equipment according to claim 1, wherein the functional modules (40) are arranged in a plurality of levels.   The modular laboratory equipment according to claim 2, wherein the individual level functional modules (40) are connected to each other by means of electrical connections (52).   The modular laboratory equipment according to any one of the preceding claims, wherein the functional module (40) and the fluid module (42) have a cubic shape.   Modular laboratory equipment according to any one of the preceding claims, wherein the functional module (40) and the fluid module (42) have a standardized fluid connection (44) on a laterally adjacent surface.   Modular lab equipment according to any one of the preceding claims, wherein the functional module (40) and the fluid module (42) have standardized electrical connections (44) on laterally adjacent surfaces.   Modular laboratory equipment according to any one of the preceding claims, wherein the functional module (40) and the fluid module (42) have standardized mechanical connections on the laterally adjacent surfaces.   Modular laboratory apparatus according to any one of the preceding claims, wherein the fluid module (42) comprises a microvalve and / or a micropump (46).   Modular laboratory apparatus according to any one of the preceding claims, further comprising a control module comprising a microvalve and / or a micropump (46).   The modular laboratory equipment according to claim 9, wherein the control module is arranged side by side with a fluid module (42) and a functional module (40).   11. Modular laboratory equipment according to claim 9 or 10, wherein the control module includes standardized fluidic connections to a fluid module (42) and a function module (40).   The modular laboratory equipment according to any one of claims 9 to 11, wherein the control module comprises standardized electrical connections to a fluid module (42) and a functional module (40).   13. Modular laboratory equipment according to any one of claims 8 to 12, wherein the microvalve and / or micropump (46) is driven manually.   The modular laboratory equipment according to any one of claims 8 to 13, wherein the microvalves and / or micropumps (46) are electrically driven by a central electronic evaluation unit (30).   Modular laboratory equipment according to any one of the preceding claims, further comprising a power supply (48) for power supply and an external connection (18).   The modular laboratory equipment of claim 15, wherein the fluid module (42), the functional module (40), the liquid tank (50), and the power source (48) comprise a modular subunit (34).   The modular laboratory equipment according to claim 16, wherein the central electronic evaluation unit (30) constitutes another modular subunit (32).   Modular laboratory equipment according to any one of the preceding claims, further comprising a fluidic connection (16) to the environment.   Modular laboratory equipment according to any one of the preceding claims, further comprising an electrical connection (20) to the environment.   Modular laboratory equipment according to any one of the preceding claims, wherein the functional module (40) comprises a reservoir of liquid.   A housing (10) comprising an operating element (22) thereon, in which a fluid module (42), a functional module (40), a liquid tank (50), and a central electronic evaluation unit (30) Modular laboratory equipment according to any one of the preceding claims, further comprising a housing (10) arranged.   A method for analyzing and synthesizing liquids using the modular laboratory equipment according to any one of the preceding claims, wherein the central electronic evaluation unit (30) is configured by the analysis and / or synthesis program with the functional modules (40) and A method for analyzing and synthesizing a liquid comprising controlling the fluid module (42) to execute an analysis program and / or a synthesis program.   23. A method for analyzing and synthesizing liquids according to claim 22, wherein sample liquid is injected into the liquid tank (50) and a part of the sample liquid is allocated by the fluid module (42) to the functional module (40).   24. A method for analyzing and synthesizing a liquid according to claim 22 or 23, wherein the sample liquid is injected into the liquid tank (50) at defined time intervals.   25. The method for analyzing and synthesizing a liquid according to claim 24, wherein the analysis and / or synthesis program is executed continuously.   26. The central electronic evaluation unit (30) issues a warning or alarm message if a specific characteristic of the liquid determined in the analysis and / or synthesis exceeds or does not reach a predetermined value. A method for analyzing and synthesizing a liquid according to any one of the preceding claims.

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